References

1 “Movies: /AEI2001/NeutronStars”, project homepage, Max Planck Institute for Gravitational Physics. URL (cited on 4 June 2009):
External Linkhttp://jean-luc.aei.mpg.de/Movies/AEI2001/NeutronStars/.
2 Abramowicz, M.A., and Kluźniak, W., “A precise determination of angular momentum in the black hole candidate GRO J1655-40”, Astron. Astrophys., 374, L19–L20, (2001). [External Linkastro-ph/0105077].
3 Abramowicz, M.A., Kluźniak, W., and Lasota, J.-P., “The Centrifugal Force Reversal and X-ray Bursts”, Astron. Astrophys., 374, L16–L18, (2001). [External Linkastro-ph/0105324].
4 Alcubierre, M., Brügmann, B., Dramlitsch, T., Font, J.A., Papadopoulos, P., Seidel, E., Stergioulas, N., and Takahashi, R., “Towards a stable numerical evolution of strongly gravitating systems in general relativity: The conformal treatments”, Phys. Rev. D, 62, 044034, 1–16, (2000). [External Linkgr-qc/0003071].
5 Amsterdamski, P., Bulik, T., Gondek-Rosińska, D., and Kluźniak, W., “Low-mass Quark Stars as Maclaurin Spheroids”, Astron. Astrophys., 381, L21–L24, (2002). [External Linkastro-ph/0012547].
6 Andersson, N., “A new class of unstable modes of rotating relativistic stars”, Astrophys. J., 502, 708–713, (1998). [External Linkgr-qc/9706075].
7 Andersson, N., “Gravitational waves from instabilities in relativistic stars”, Class. Quantum Grav., 20, R105–R144, (2002). [External Linkastro-ph/0211057].
8 Andersson, N., and Comer, G.L., “Probing Neutron-Star Superfluidity with Gravitational-Wave Data”, Phys. Rev. Lett., 87, 241101, (2001). Related online version (cited on 23 April 2002):
External Linkhttp://www.arXiv.org/abs/gr-qc0110112.
9 Andersson, N., and Comer, G.L., “Slowly Rotating General Relativistic Superfluid Neutron Stars”, Class. Quantum Grav., 18, 969–1002, (2001). [External Linkgr-qc/0009089].
10 Andersson, N., Comer, G.L., and Langlois, D., “Oscillations of general relativistic superfluid neutron stars”, Phys. Rev. D, 66, 104002, 1–22, (2002). [External Linkgr-qc/0203039].
11 Andersson, N., Jones, D.I., and Kokkotas, K.D., “Strange stars as persistent sources of gravitational wave”, Mon. Not. R. Astron. Soc., 337, 1224–1232, (2002). [External Linkastro-ph/0111582].
12 Andersson, N., Jones, D.I., Kokkotas, K.D., and Stergioulas, N., “r-Mode runaway and rapidly rotating neutron stars”, Astrophys. J. Lett., 534, L75–L78, (2000). [External LinkADS], [External Linkastro-ph/0002114].
13 Andersson, N., and Kokkotas, K.D., “Gravitational Waves and Pulsating Stars: What Can We Learn from Future Observations?”, Phys. Rev. Lett., 77, 4134–4137, (1996). [External Linkgr-qc/9610035].
14 Andersson, N., and Kokkotas, K.D., “The R-Mode Instability in Rotating Neutron Stars”, Int. J. Mod. Phys. D, 10, 381–441, (2001). [External Linkgr-qc/0010102].
15 Andersson, N., Kokkotas, K.D., and Schutz, B.F., “A new numerical approach to the oscillation modes of relativistic stars”, Mon. Not. R. Astron. Soc., 274, 1039–1048, (1995). [External Linkgr-qc/9503014].
16 Andersson, N., Kokkotas, K.D., and Schutz, B.F., “Gravitational radiation limit on the spin of young neutron stars”, Astrophys. J., 510, 846–853, (1999). [External Linkastro-ph/9805225].
17 Andersson, N., Kokkotas, K.D., and Stergioulas, N., “On the Relevance of the r-Mode Instability for Accreting Neutron Stars and White Dwarfs”, Astrophys. J., 516, 307–314, (1999). [External Linkastro-ph/9806089].
18 Ansorg, M., Kleinwächter, A., and Meinel, R., “Highly accurate calculation of rotating neutron stars”, Astron. Astrophys., 381, L49–L52, (2002). [External LinkDOI], [External LinkADS], [External Linkastro-ph/011108].
19 Ansorg, M., Kleinwächter, A., and Meinel, R., “Highly accurate calculation of rotating neutron stars: Detailed description of the numerical methods”, Astron. Astrophys., 405, 711–721, (2003). [External LinkDOI], [External LinkADS].
20 Arnett, W.D., and Bowers, R.L., “A Microscopic Interpretation of Neutron Star Structure”, Astrophys. J. Suppl. Ser., 33, 415–436, (1977).
21 Arras, P., Flanagan, É.É., Morsink, S.M., Schenk, A.K., Teukolsky, S.A., and Wasserman, I., “Saturation of the r-mode instability”, Astrophys. J., 591, 1129–1151, (2003). [External Linkastro-ph/0202345].
22 Asada, H., and Shibata, M., “Formulation for Nonaxisymmetric Uniformly Rotating Equilibrium Configurations in the Second Post-Newtonian Approximation of General Relativity”, Prog. Theor. Phys., 96, 81–112, (1996). [External Linkgr-qc/9609024].
23 Bardeen, J.M., “A Variational Principle for Rotating Stars in General Relativity”, Astrophys. J., 162, 71–95, (1970).
24 Bardeen, J.M., “Rapidly rotating stars, disks, and black holes”, in DeWitt, C., and DeWitt, B.S., eds., Black Holes, Based on lectures given at the 23rd session of the Summer School of Les Houches, 1972, pp. 241–289, (Gordon and Breach, New York, 1973).
25 Bardeen, J.M., and Piran, T., “General relativistic rotating axisymmetric systems: coordinates and equations”, Phys. Rep., 96, 205–250, (1983). [External LinkADS].
26 Bardeen, J.M., and Wagoner, R.V., “Relativistic Disks. I. Uniform Rotation”, Astrophys. J., 167, 359–423, (1971).
27 Battiston, L., Cazzola, P., and Lucaroni, L., “Stability of nonradial oscillations of cold nonrotating neutron stars”, Nuovo Cimento B, 3, 295–317, (1971).
28 Baumgarte, T.W., and Shapiro, S.L., “Numerical integration of Einstein’s field equations”, Phys. Rev. D, 59, 024007, 1–7, (1998). [External LinkDOI], [External LinkADS], [External Linkgr-qc/9810065].
29 Baumgarte, T.W., and Shapiro, S.L., “Radiation of Angular Momentum by Neutrinos from Merged Binary Neutron Stars”, Astrophys. J., 504, 431–441, (1998). [External Linkastro-ph/9801294].
30 Baumgarte, T.W., Shapiro, S.L., and Shibata, M., “On the maximum mass of differentially rotating neutron stars”, Astrophys. J., 528, L29–L32, (2000). [External Linkastro-ph/9910565].
31 Baumgarte, T.W., Shapiro, S.L., and Shibata, M. et al., “Illinois Relativity Group: Movies”, project homepage, University of Illinois at Urbana-Champaign. URL (cited on 4 June 2009):
External Linkhttp://research.physics.illinois.edu/CTA/IRG/movies.html.
32 Baumgarte, T.W., Shapiro, S.L., and Teukolsky, S.A., “Computing the Delayed Collapse of Hot Neutron Stars to Black Holes”, Astrophys. J., 458, 680–691, (1996). [External LinkDOI], [External LinkADS].
33 Bhattacharyya, S., Temperature Profiles and Spectra of Accretion Disks around Rapidly Rotating Neutron Stars, Ph.D. Thesis, (Indian Institute of Science, Bangalore, India, 2001). [External Linkastro-ph/0205133].
34 Bhattacharyya, S., “A study of accretion discs around rapidly rotating neutron stars in general relativity and its applications to four low mass X-ray binaries”, Astron. Astrophys., 383, 524–532, (2002). [External Linkastro-ph/0112178].
35 Bildsten, L., “Gravitational radiation and rotation of accreting neutron stars”, Astrophys. J. Lett., 501, L89–L93, (1998). [External Linkastro-ph/9804325].
36 Blanchet, L., “Post-Newtonian Theory and its Application”, in Shibata, M., Eriguchi, Y., Taniguchi, K., Nakamura, T., and Tomita, K., eds., Proceedings of the 12th Workshop on General Relativity and Gravitation, Proceedings of the 12th Workshop on General Relativity and Gravitation in Japan (JGRG12),Tokyo, 25 – 28 November 2002, (University of Tokyo, Tokyo, 2003). [External Linkgr-qc/0304014].
37 Bocquet, M., Bonazzola, S., Gourgoulhon, E., and Novak, J., “Rotating neutron star models with a magnetic field”, Astron. Astrophys., 301, 757–775, (1995). [External LinkADS], [External Linkgr-qc/9503044].
38 Bodmer, A.R., “Collapsed Nuclei”, Phys. Rev. D, 4, 1601–1606, (1971).
39 Bonazzola, S., “The virial theorem in general relativity”, Astrophys. J., 182, 335–340, (1973).
40 Bonazzola, S., Frieben, J., and Gourgoulhon, E., “Spontaneous Symmetry Breaking of Rapidly Rotating Stars in General Relativity”, Astrophys. J., 460, 379–389, (1996). [External LinkDOI], [External LinkADS], [External Linkgr-qc/9509023].
41 Bonazzola, S., Frieben, J., and Gourgoulhon, E., “Spontaneous symmetry breaking of rapidly rotating stars in general relativity: influence of the 3D-shift vector”, Astron. Astrophys., 331, 280–290, (1998). [External LinkADS], [External Linkgr-qc/9710121].
42 Bonazzola, S., Frieben, J., Gourgoulhon, E., and Marck, J.-A., “Spectral methods in general relativity – toward the simulation of 3D-gravitational collapse of neutron stars”, in Ilin, A.V., and Scott, L.R., eds., ICOSAHOM ’95, Proceedings of the Third International Conference on Spectral and High Order Methods: Houston, Texas, June 5 – 9, 1995, Houston Journal of Mathematics, pp. 3–19, (University of Houston, Houston, 1996). [External Linkgr-qc/9604029].
43 Bonazzola, S., and Gourgoulhon, E., “A virial identity applied to relativistic stellar models”, Class. Quantum Grav., 11, 1775–1784, (1994).
44 Bonazzola, S., and Gourgoulhon, E., “Gravitational waves from pulsars: emission by the magnetic-field-induced distortion”, Astron. Astrophys., 312, 675–690, (1996). [External LinkADS], [External Linkastro-ph/9602107].
45 Bonazzola, S., and Gourgoulhon, E., “Gravitational Waves from Neutron Stars”, in Marck, J.-A., and Lasota, J.-P., eds., Relativistic Gravitation and Gravitational Radiation, Proceedings of the Les Houches School of Physics, 26 September - 6 October, 1995, Cambridge Contemporary Astrophysics, p. 151, (Cambridge University Press, Cambridge, 1997). [External Linkastro-ph/9605187].
46 Bonazzola, S., Gourgoulhon, E., and Marck, J.-A., “Numerical approach for high precision 3D relativistic star models”, Phys. Rev. D, 58, 104020, 1–14, (1998). [External LinkDOI], [External LinkADS], [External Linkastro-ph/9803086].
47 Bonazzola, S., Gourgoulhon, E., Salgado, M., and Marck, J.-A., “Axisymmetric rotating relativistic bodies: A new numerical approach for ‘exact’ solutions”, Astron. Astrophys., 278, 421–443, (1993). [External LinkADS].
48 Bonazzola, S., and Schneider, J., “An Exact Study of Rigidly and Rapidly Rotating Stars in General Relativity with Application to the Crab Pulsar”, Astrophys. J., 191, 273–286, (1974).
49 Boyer, R.H., and Lindquist, R.W., “A variational principle for a rotating relativistic fluid”, Phys. Lett., 20, 504–506, (1966).
50 Brecher, K., and Caporaso, G., “Obese ’neutron’ stars”, Nature, 259, 377, (1976).
51 Brown, G.E., and Bethe, H.A., “A Scenario for a Large Number of Low-Mass Black Holes in the Galaxy”, Astrophys. J., 423, 659–664, (1994).
52 Burderi, L., and D’Amico, N., “Probing the Equation of State of Ultradense Matter with a Submillisecond Pulsar Search Experiment”, Astrophys. J., 490, 343–352, (1997).
53 Burderi, L., Possenti, A., D’Antona, F., Di Salvo, T., Burgay, M., Stella, L., Menna, M.T., Iaria, R., Campana, S., and D’Amico, N., “Where May Ultrafast Rotating Neutron Stars Be Hidden?”, Astrophys. J., 560, L71–L74, (2001). [External Linkastro-ph/0109088].
54 Butterworth, E.M., “On the structure and stability of rapidly rotating fluid bodies in general relativity. II. The structure of uniformly rotating pseudopolytropes”, Astrophys. J., 204, 561–572, (1976).
55 Butterworth, E.M., and Ipser, J.R., “On the structure and stability of rapidly rotating fluid bodies in general relativity. I. The numerical method for computing structure and its application to uniformly rotating homogeneous bodies”, Astrophys. J., 204, 200–233, (1976).
56 Carroll, B.W., Zweibel, E.G., Hansen, C.J., McDermott, P.N., Savedoff, M.P., Thomas, J.H., and Van Horn, H.M., “Oscillation Spectra of Neutron Stars with Strong Magnetic Fields”, Astrophys. J., 305, 767–783, (1986).
57 Carter, B., “Killing Horizons and Orthogonally Transitive Groups in Space-Time”, J. Math. Phys., 10, 70–81, (1969).
58 Carter, B., “The Commutation Property of a Stationary, Axisymmetric System”, Commun. Math. Phys., 17, 233–238, (1970). [External LinkDOI].
59 Chandrasekhar, S., An Introduction to the Study of Stellar Structure, (University of Chicago Press, Chicago, 1939).
60 Chandrasekhar, S., “Solutions of Two Problems in the Theory of Gravitational Radiation”, Phys. Rev. Lett., 24, 611–615, (1970). [External LinkDOI].
61 Chandrasekhar, S., and Ferrari, V., “On the non-radial oscillations of slowly rotating stars induced by the Lense–Thirring effect”, Proc. R. Soc. London, Ser. A, 433, 423–440, (1991).
62 Cheng, K.S., and Harko, T., “Approximate mass and radius formulas for static and rotating strange stars”, Phys. Rev. D, 62, 083001, 1–9, (2000).
63 Choptuik, M.W., Hirschmann, E.W., Liebling, S.L., and Pretorius, F., “An Axisymmetric Gravitational Collapse Code”, arXiv e-print, (2003). [External Linkgr-qc/0301006].
64 Clement, M.J., “Normal modes of oscillation for rotating stars. I – The effect of rigid rotation on four low-order pulsations”, Astrophys. J., 249, 746–760, (1981).
65 Colella, P., and Woodward, P.R., “The piecewise parabolic method (PPM) for gas-dynamical simulations”, J. Comput. Phys., 54, 174–201, (1984).
66 Colpi, M., and Miller, J.C., “Rotational properties of strange stars”, Astrophys. J., 388, 513–520, (1992).
67 Comer, G.L., Langlois, D., and Lin, L.M., “Quasinormal modes of general relativistic superfluid neutron stars”, Phys. Rev. D, 60, 104025, 1–20, (1999). [External Linkgr-qc/9908040].
68 Comins, N., and Schutz, B.F., “On the ergoregion instability”, Proc. R. Soc. London, Ser. A, 364, 211–226, (1978).
69 Cook, G.B., Shapiro, S.L., and Teukolsky, S.A., “Spin-up of a rapidly rotating star by angular momentum loss: Effects of general relativity”, Astrophys. J., 398, 203–223, (1992).
70 Cook, G.B., Shapiro, S.L., and Teukolsky, S.A., “Rapidly rotating neutron stars in general relativity: Realistic equations of state”, Astrophys. J., 424, 823–845, (1994). [External LinkDOI], [External LinkADS].
71 Cook, G.B., Shapiro, S.L., and Teukolsky, S.A., “Rapidly rotating polytropes in general relativity”, Astrophys. J., 422, 227–242, (1994).
72 Cook, G.B., Shapiro, S.L., and Teukolsky, S.A., “Recycling pulsars to millisecond periods in general relativity”, Astrophys. J., 423, L117–L120, (1994).
73 Cook, G.B., Shapiro, S.L., and Teukolsky, S.A., “Testing a simplified version of Einstein’s equations for numerical relativity”, Phys. Rev. D, 53, 5533–5540, (1996). [External Linkgr-qc/9512009].
74 Cottam, J., Paerels, F., and Mendez, M., “Gravitationally redshifted absorption lines in the X-ray burst spectra of a neutron star”, Nature, 420, 51–54, (2002). [External LinkDOI], [External Linkastro-ph/0211126].
75 Crawford, F., Kaspi, V.M., and Bell, J.F., “A Search for Sub-millisecond Pulsations in Unidentified FIRST and NVSS Radio Sources”, in Kramer, M., Wex, N., and Wielebinski, N., eds., Pulsar Astronomy – 2000 and beyond, ASP Conference Series, vol. 202, p. 31, (Astronomical Society of the Pacific, San Francisco, 2000).
76 Cumming, A., Morsink, S.M., Bildsten, L., Friedman, J.L., and Holz, D., “Hydrostatic Expansion and Spin Changes during Type I X-Ray Bursts”, Astrophys. J., 564, 343–352, (2002). [External Linkastro-ph/0108009].
77 Cutler, C., “Post-Newtonian effects on the modes of rotating stars”, Astrophys. J., 374, 248–254, (1991).
78 Cutler, C., and Lindblom, L., “The effect of viscosity on neutron star oscillations”, Astrophys. J., 314, 234–241, (1987).
79 Cutler, C., and Lindblom, L., “Post-Newtonian frequencies for the pulsations of rapidly rotating neutron stars”, Astrophys. J., 385, 630–641, (1992).
80 Cutler, C., and Thorne, K.S., “An Overview of Gravitational-Wave Sources”, in Bishop, N.T., and Maharaj, S.D., eds., General Relativity and Gravitation, Proceedings of the 16th International Conference on General Relativity and Gravitation, Durban, South Africa, 15 – 21 July, 2001, pp. 72–111, (World Scientific, Singapore; River Edge, NJ, 2002). [External Linkgr-qc/0204090].
81 D’Amico, N., “The Bologna submillisecond pulsar survey”, in Kramer, M., Wex, N., and Wielebinski, N., eds., Pulsar Astronomy: 2000 and beyond (IAU Colloquium 177), Proceedings of a conference held at the Max-Planck-Institut für Radioastronomie, Bonn, Germany, 30 August - 3 September 1999, ASP Conference Series, vol. 202, p. 27, (Astronomical Society of the Pacific, San Francisco, 2000).
82 Datta, B., “Recent developments in neutron star physics”, Fundam. Cosmic Phys., 12, 151–239, (1988).
83 Datta, B., Hasan, S.S., Sahu, P.K., and Prasanna, A.R., “Radial modes of rotating neutron stars in the Chandrasekhar–Friedman formalism”, Int. J. Mod. Phys. D, 7, 49–59, (1998).
84 Datta, B., Thampan, A.V., and Bombaci, I., “Equilibrium sequences of rotating neutron stars for new microscopic equations of state”, Astron. Astrophys., 334, 943–952, (1998). [External Linkastro-ph/9801312].
85 Detweiler, S.L., and Ipser, J.R., “A Variational Principle and a Stability Criterion for the Non-Radial Modes of Pulsation of Stellar Models in General Relativity”, Astrophys. J., 185, 685–707, (1973).
86 Detweiler, S.L., and Lindblom, L., “On the nonradial pulsations of general relativistic stellar models”, Astrophys. J., 292, 12–15, (1985).
87 Dey, M., Bombaci, I., Dey, J., Ray, S., and Samanta, B.C., “Strange stars with realistic quark vector interaction and phenomenological density-dependent scalar potential”, Phys. Lett. B, 438, 123–128, (1998). [External Linkastro-ph/9810065]. Addendum Phys. Lett. B 447 (1999) 352–353.
88 Di Girolamo, T., and Vietri, M., “Post-Newtonian Treatment of Bar Mode Instability in Rigidly Rotating Equilibrium Configurations for Polytropic Stars”, Astrophys. J., 581, 519–549, (2002). [External Linkastro-ph/0205398].
89 Dimmelmeier, H., General Relativistic Collapse of Rotating Stellar Cores in Axisymmetry, Ph.D. Thesis, (Technische Universität München, München, 2001).
90 Dimmelmeier, H., Font, J.A., and Müller, E., “Gravitational waves from relativistic rotational core collapse”, Astrophys. J. Lett., 560, L163–L166, (2001). [External Linkastro-ph/0103088].
91 Dimmelmeier, H., Font, J.A., and Müller, E., “Relativistic simulations of rotational core collapse I. Methods, initial models, and code tests”, Astron. Astrophys., 388, 917–935, (2002). [External LinkDOI], [External LinkADS], [External Linkastro-ph/0204288].
92 Dimmelmeier, H., Font, J.A., and Müller, E., “Relativistic simulations of rotational core collapse. II. Collapse dynamics and gravitational radiation”, Astron. Astrophys., 393, 523–542, (2002). [External Linkastro-ph/0204289].
93 Duez, M.D., Marronetti, P., Shapiro, S.L., and Baumgarte, T.W., “Hydrodynamic simulations in 3+1 general relativity”, Phys. Rev. D, 67, 024004, 1–22, (2003). [External Linkgr-qc/0209102].
94 Edwards, R.T., van Straten, W., and Bailes, M., “A Search for Submillisecond Pulsars”, Astrophys. J., 560, 365–370, (2001). [External Linkastro-ph/0106353].
95 Eriguchi, Y., Hachisu, I., and Nomoto, K., “Structure of Rapidly Rotating Neutron Stars”, Mon. Not. R. Astron. Soc., 266, 179–185, (1994).
96 Evans, C.R., A method for numerical relativity: Simulation of axisymmetric gravitational collapse and gravitational radiation generation, Ph.D. Thesis, (Texas University, Austin, 1984).
97 Evans, C.R., “An Approach for Calculating Axisymmetric Gravitational Collapse”, in Centrella, J.M., ed., Dynamical Spacetimes and Numerical Relativity, Proceedings of a workshop held at Drexel University, October 7 – 11, 1985, pp. 3–39, (Cambridge University Press, Cambridge; New York, 1986).
98 Farhi, E., and Jaffe, R.L., “Strange matter”, Phys. Rev. D, 30, 2379–2390, (1984).
99 Finn, L.S., “Relativistic stellar pulsations in the Cowling approximation”, Mon. Not. R. Astron. Soc., 232, 259–275, (1988).
100 Flanagan, É.É., “Astrophysical Sources of Gravitational Radiation and Prospects for their Detection”, in Dadhich, N., and Narlikar, J., eds., Gravitation and Relativity: At the turn of the Millennium. Proceedings of the GR-15 Conference, Pune, December 16-21, 1997, pp. 177–197, (IUCAA, Pune, India, 1998). [External Linkgr-qc/9804024].
101 Flowers, E., and Itoh, N., “Transport properties of dense matter”, Astrophys. J., 206, 218–242, (1976).
102 Flowers, E., and Itoh, N., “Transport properties of dense matter. II”, Astrophys. J., 230, 847–858, (1979).
103 Font, J.A., “Numerical Hydrodynamics in General Relativity”, Living Rev. Relativity, 3, lrr-2000-2, (2000). URL (cited on 5 June 2002):
http://www.livingreviews.org/lrr-2000-2.
104 Font, J.A., Dimmelmeier, H., Gupta, A., and Stergioulas, N., “Axisymmetric modes of rotating relativistic stars in the Cowling approximation”, Mon. Not. R. Astron. Soc., 325, 1463–1470, (2001). [External Linkastro-ph/0012477].
105 Font, J.A., Goodale, T., Iyer, S., Miller, M., Rezzolla, L., Seidel, E., Stergioulas, N., Suen, W.-M., and Tobias, M., “Three-dimensional numerical general relativistic hydrodynamics. II. Long-term dynamics of single relativistic stars”, Phys. Rev. D, 65, 084024, 1–18, (2002). [External LinkDOI], [External LinkADS], [External Linkgr-qc/0110047].
106 Font, J.A., Stergioulas, N., and Kokkotas, K.D., “Nonlinear hydrodynamical evolution of rotating relativistic stars: Numerical methods and code tests”, Mon. Not. R. Astron. Soc., 313, 678–688, (2000). [External Linkgr-qc/9908010].
107 Friedman, J.L., personal communication. Referenced in Glendenning, N.K., PSR 1987A: the case for strange-quark stars, J. Phys. G 15 (1989) L255–L260.
108 Friedman, J.L., “Ergosphere Instability”, Commun. Math. Phys., 63, 243–255, (1978).
109 Friedman, J.L., “How fast can a pulsar spin?”, in Ashby, N., Bartlett, D.F., and Wyss, W., eds., General Relativity and Gravitation, 1989, Proceedings of the 12th International Conference on General Relativity and Gravitation, University of Colorado at Boulder, July 2-8, 1989, pp. 21–39, (Cambridge University Press, Cambridge; New York, 1990).
110 Friedman, J.L., “Upper Limit on the Rotation of Relativistic Stars”, in Fruchter, A.S., Tavani, M., and Backer, D.C., eds., Millisecond Pulsars: A Decade of Surprise, Aspen, Colorado, 3-7 January 1994, ASP Conference Series, vol. 72, pp. 177–185, (Astronomical Society of the Pacific, San Francisco, 1995).
111 Friedman, J.L., and Ipser, J.R., “On the maximum mass of a uniformly rotating neutron star”, Astrophys. J., 314, 594–597, (1987).
112 Friedman, J.L., and Ipser, J.R., “Rapidly rotating relativistic stars”, Philos. Trans. R. Soc. London, Ser. A, 340(1658), 391–422, (1992).
113 Friedman, J.L., Ipser, J.R., and Parker, L., “Rapidly rotating neutron star models”, Astrophys. J., 304, 115–139, (1986). Erratum: Astrophys. J., 351, 705 (1990).
114 Friedman, J.L., Ipser, J.R., and Parker, L., “Implications of a half-millisecond pulsar”, Phys. Rev. Lett., 62, 3015–3019, (1989).
115 Friedman, J.L., Ipser, J.R., and Sorkin, R.D., “Turning-point method for axisymmetric stability of rotating relativistic stars”, Astrophys. J., 325, 722–274, (1988).
116 Friedman, J.L., and Lockitch, K.H., “Implications of the r-mode instability of rotating relativistic stars”, in Gurzadyan, V.G., Jantzen, R.T., and Ruffini, R., eds., The Ninth Marcel Grossmann Meeting : On recent developments in theoretical and experimental general relativity, gravitation, and relativistic field theories, Proceedings of the MGIX MM meeting held at the University of Rome “La Sapienza”, 2 – 8 July 2000, pp. 163–181, (World Scientific, Singapore; River Edge, NJ, 2002).
117 Friedman, J.L., and Morsink, S.M., “Axial instability of rotating relativistic stars”, Astrophys. J., 502, 714–720, (1998). [External Linkgr-qc/9706073].
118 Friedman, J.L., and Schutz, B.F., “Secular instability of rotating newtonian stars”, Astrophys. J., 222, 281–296, (1978). [External LinkADS].
119 Fryer, C.L., and Heger, A., “Core-Collapse Simulations of Rotating Stars”, Astrophys. J., 541, 1033–1050, (2000). [External Linkastro-ph/9907433].
120 Geroch, R., and Lindblom, L., “Causal Theories of Dissipative Relativistic Fluids”, Ann. Phys. (N.Y.), 207, 394–416, (1991).
121 Giazotto, A., Bonazzola, S., and Gourgoulhon, E., “On gravitational waves emitted by an ensemble of rotating neutron stars”, Phys. Rev. D, 55, 2014–2023, (1997). [External Linkastro-ph/9611188].
122 Glendenning, N.K., “Fast pulsar in SN 1987A: Candidate for strange-quark matter”, Phys. Rev. Lett., 63, 2629–2632, (1989).
123 Glendenning, N.K., “PSR 1987A: the case for strange-quark stars”, J. Phys. G, 15, L255–260, (1989).
124 Glendenning, N.K., “Limiting rotational period of neutron stars”, Phys. Rev. D, 46, 4161–4168, (1992).
125 Glendenning, N.K., Compact Stars: Nuclear Physics, Particle Physics and General Relativity, Astronomy and Astrophysics Library, (Springer, New York; Berlin, 1997).
126 Glendenning, N.K., and Weber, F., “Nuclear solid crust on rotating strange quarks stars”, Astrophys. J., 400, 647–658, (1992).
127 Gondek, D., Haensel, P., and Zdunik, J.L., “Radial pulsations and stability of protoneutron stars”, Astron. Astrophys., 325, 217–227, (1997). [External Linkastro-ph/9705157].
128 Gondek-Rosińska, D., Bulik, T., Zdunik, J.L., Gourgoulhon, E., Ray, S., Dey, J., and Dey, M., “Rapidly rotating compact strange stars”, Astron. Astrophys., 363, 1005–1012, (2000). [External LinkADS], [External Linkastro-ph/0007004].
129 Gondek-Rosińska, D., and Gourgoulhon, E., “Jacobi-like bar mode instability of relativistic rotating bodies”, Phys. Rev. D, 66, 044021, 1–11, (2002). [External LinkDOI], [External LinkADS], [External Linkgr-qc/0205102].
130 Gondek-Rosińska, D., Gourgoulhon, E., and Haensel, P., “Rapidly Rotating Strange Quark Stars as Sources of Gravitational Waves”, Astron. Astrophys., submitted, (2003).
131 Gondek-Rosińska, D., Stergioulas, N., Bulik, T., Kluźniak, W., and Gourgoulhon, E., “Lower limits on the maximum orbital frequency around rotating strange stars”, Astron. Astrophys., 380, 190–197, (2001). [External LinkDOI], [External LinkADS], [External Linkastro-ph/0110209].
132 Gourgoulhon, E., and Bonazzola, S., “A formulation of the virial theorem in general relativity”, Class. Quantum Grav., 11, 443–452, (1994).
133 Gourgoulhon, E., Haensel, P., Livine, R., Paluch, E., Bonazzola, S., and Marck, J.-A., “Fast rotation of strange stars”, Astron. Astrophys., 349, 851–862, (1999). [External LinkADS], [External Linkastro-ph/9907225].
134 Goussard, J.O., Haensel, P., and Zdunik, J.L., “Rapid uniform rotation of protoneutron stars”, Astron. Astrophys., 321, 822–834, (1997). [External LinkADS], [External Linkastro-ph/9610265].
135 Goussard, J.O., Haensel, P., and Zdunik, J.L., “Rapid differential rotation of protoneutron stars and constraints on radio pulsars periods”, Astron. Astrophys., 330, 1005–1016, (1998). [External LinkADS], [External Linkastro-ph/9711347].
136 Gressman, P., Lin, L.-M., Suen, W.-M., Stergioulas, N., and Friedman, J.L., “Nonlinear r-modes in neutron stars: Instability of an unstable mode”, Phys. Rev. D, 66, 041303, 1–5, (2002). [External Linkgr-qc/0301014].
137 Gupta, A., Mishra, A., Mishra, H., and Prasanna, A.R., “Rotating Compact Objects with Magnetic Fields”, Class. Quantum Grav., 15, 3131–3145, (1998). [External Linkastro-ph/9805146].
138 Haensel, P., “Equation of State of Dense Matter and Maximum Mass of Neutron Stars”, in Hameury, J.-M., and Motch, C., eds., Final Stages of Stellar Evolution, Summer School on Stellar Physics XI, Aussois, France, September 16 – 21, 2001, EAS Publication Series, vol. 7, (EDP Sciences, Les Ulis, 2003). [External Linkastro-ph/0301073].
139 Haensel, P., Lasota, J.-P., and Zdunik, J.L., “On the minimum period of uniformly rotating neutron stars”, Astron. Astrophys., 344, 151–153, (1999). [External Linkastro-ph/9901118].
140 Haensel, P., Levenfish, K.P., and Yakovlev, D.G., “Bulk viscosity in superfluid neutron star cores. III. Effects of Σ hyperons”, Astron. Astrophys., 381, 1080–1089, (2002). [External Linkastro-ph/0110575].
141 Haensel, P., Salgado, M., and Bonazzola, S., “Equation of state of dense matter and maximum rotation frequency of neutron stars”, Astron. Astrophys., 296, 746–751, (1995).
142 Haensel, P., and Zdunik, J.L., “A submillisecond pulsar and the equation of state of dense matter”, Nature, 340, 617–619, (1989).
143 Hartle, J.B., “Slowly Rotating Relativistic Stars. I. Equations of Structure”, Astrophys. J., 150, 1005–1029, (1967).
144 Hartle, J.B., “Bounds on the mass and moment of inertia of non-rotating neutron stars”, Phys. Rep., 46, 201–247, (1978).
145 Hartle, J.B., and Friedman, J.L., “Slowly rotating relativistic stars. VIII. Frequencies of the quasi-radial modes of an n = 32 polytrope”, Astrophys. J., 196, 653–660, (1975).
146 Hartle, J.B., and Sabbadini, A.G., “The equation of state and bounds on the mass of nonrotating neutron stars”, Astrophys. J., 213, 831–835, (1977).
147 Hartle, J.B., and Sharp, D.H., “Variational Principle for the Equilibrium of a Relativistic, Rotating Star”, Astrophys. J., 147, 317–333, (1967).
148 Hartle, J.B., and Thorne, K.S., “Slowly Rotating Relativistic Stars. II. Models for Neutron Stars and Supermassive Stars”, Astrophys. J., 153, 807–834, (1968).
149 Hartle, J.B., and Thorne, K.S., “Slowly Rotating Relativistic Stars. III. Static Criterion for Stability”, Astrophys. J., 158, 719–726, (1969).
150 Hashimoto, M., Oyamatsu, K., and Eriguchi, Y., “Upper limit of the angular velocity of neutron stars”, Astrophys. J., 436, 257–261, (1994).
151 Heger, A., Langer, N., and Woosley, S.E., “Presupernova evolution of rotating massive stars. I. Numerical method and evolution of the internal stellar structure”, Astrophys. J., 528, 368–396, (2000). [External Linkastro-ph/9904132].
152 Heger, A., Woosley, S.E., Langer, N., and Spruit, H.C., “Presupernova Evolution of Rotating Massive Stars and the Rotation Rate of Pulsars”, in Maeder, A., and Eenens, P., eds., Stellar Rotation, Proceedings of the 215th Symposium of the IAU, Cancun, Mexico, 11 – 15 November 2002, IAU Symposia, vol. 215, (Astronomical Society of the Pacific, San Francisco, 2004). [External Linkastro-ph/0301374].
153 Hegyi, D.J., “The upper mass limit for neutron stars including differential rotation”, Astrophys. J., 217, 244–247, (1977).
154 Heyl, J., “Low-Mass X-Ray Binaries May Be Important Laser Interferometer Gravitational-Wave Observatory Sources After All”, Astrophys. J., 574, L57–L60, (2002). [External Linkastro-ph/0206174].
155 Houser, J.L., Centrella, J.M., and Smith, S.C., “Gravitational radiation from nonaxisymmetric instability in a rotating star”, Phys. Rev. Lett., 72, 1314–1317, (1994). [External Linkgr-qc/9409057].
156 Imamura, J.N., Friedman, J.L., and Durisen, R.H., “Secular stability limits for rotating polytropic stars”, Astrophys. J., 294, 474–478, (1985).
157 Ipser, J.R., Kislinger, M.B., and Morley, P.D., unknown format.
158 Ipser, J.R., and Lindblom, L., “The oscillations of rapidly rotating Newtonian stellar models”, Astrophys. J., 355, 226–240, (1990).
159 Ipser, J.R., and Lindblom, L., “On the adiabatic pulsations of accretion disks and rotating stars”, Astrophys. J., 379, 285–289, (1991).
160 Ipser, J.R., and Lindblom, L., “The oscillations of rapidly rotating Newtonian stellar models. II – Dissipative effects”, Astrophys. J., 373, 213–221, (1991).
161 Ipser, J.R., and Lindblom, L., “On the pulsations of relativistic accretion disks and rotating stars – The Cowling approximation”, Astrophys. J., 389, 392–399, (1992).
162 Ipser, J.R., and Managan, R.A., “An Eulerian variational principle and a criterion for the occurrence of nonaxisymmetric neutral modes along rotating axisymmetric sequences”, Astrophys. J., 292, 517–521, (1985).
163 Ipser, J.R., and Price, R.H., “Nonradial pulsations of stellar models in general relativity”, Phys. Rev. D, 43, 1768–1773, (1991).
164 James, R.A., “The Structure and Stability of Rotating Gas Masses”, Astrophys. J., 140, 552–582, (1964).
165 Jones, D.I., “Gravitational waves from rotating neutron stars”, Class. Quantum Grav., 19, 1255–1266, (2002). [External Linkgr-qc/0111007].
166 Jones, P.B., “Comment on “Gravitational radiation instability in hot young neutron stars””, Phys. Rev. Lett., 86, 1384, (2001).
167 Kaaret, P., Ford, E.C., and Chen, K., “Strong-Field General Relativity and Quasi-periodic Oscillations in X-Ray Binaries”, Astrophys. J., 480, L27–L29, (1997). [External Linkastro-ph/9701101].
168 Kluźniak, W., and Abramowicz, M.A., “Parametric epicyclic resonance in black hole disks: QPOs in micro-quasars”, arXiv e-print, (2002). [External Linkastro-ph/0203314].
169 Kluźniak, W., Bulik, T., and Gondek-Rosińska, D., “Quark stars in Low-Mass X-ray Binaries: for and against”, in Battrick, B., ed., Exploring the Gamma-Ray Universe, Proceedings of the 4th Integral Workshop, 4-8 September 2000, Alicante, Spain, ESA SP, vol. 459, pp. 301–304, (ESA Publications Division, Noordwijk, Netherlands, 2001). [External Linkastro-ph/0011517].
170 Kluźniak, W., Michelson, P., and Wagoner, R.V., “Determining the properties of accretion-gap neutron stars”, Astrophys. J., 358, 538–544, (1990).
171 Kluźniak, W., and Wilson, J.R., “Hard X-ray Spectra from Gap Accretion onto Neutron Stars”, Astrophys. J., 372, L87–L90, (1991).
172 Kojima, Y., “Equations governing the nonradial oscillations of a slowly rotating relativistic star”, Phys. Rev. D, 46, 4289–4303, (1992).
173 Kojima, Y., “Coupled Pulsations between Polar and Axial Modes in a Slowly Rotating Relativistic Star”, Prog. Theor. Phys., 90, 977–990, (1993).
174 Kojima, Y., “Normal modes of relativistic stars in slow rotation limit”, Astrophys. J., 414, 247–253, (1993).
175 Kojima, Y., “Quasi-toroidal oscillations in rotating relativistic stars”, Mon. Not. R. Astron. Soc., 293, 49–52, (1998). [External Linkgr-qc/9709003].
176 Kokkotas, K.D., “Pulsating relativistic stars”, in Marck, J.-A., and Lasota, J.-P., eds., Relativistic Gravitation and Gravitational Radiation, Proceedings of the Les Houches School of Physics, 26 September – 6 October, 1995, Cambridge Contemporary Astrophysics, pp. 89–102, (Cambridge University Press, Cambridge, 1997). [External Linkgr-qc/9603024].
177 Kokkotas, K.D., “Stellar Pulsations and Gravitational Waves”, in Krolak, A., ed., Mathematics of Gravitation, Part II: Gravitational Wave Detection, Proceedings of the Workshop Mathematical Aspects of Theories of Gravitation, held in the Banach Center of the Institute of Mathematics of the Polish Academy of Sciences, Warsaw, Poland, February 29 - March 30, 1996, Banach Center Publications, vol. 41, pp. 31–41, (Banach Center Publications, Warsaw, Poland, 1997).
178 Kokkotas, K.D., and Ruoff, J., “Instabilities of Relativistic Stars”, in Ciufolini, I., Dominici, D., and Lusanna, L., eds., 2001: A Relativistic Spacetime Odyssey, Proceedings of the Johns Hopkins Workshop on Current Problems in Particle Theory 25, Firenze, September 3 – 5, 2001, Johns Hopkins Workshops, (World Scientific, River Edge, NJ, 2003). [External Linkgr-qc/0212105].
179 Kokkotas, K.D., Ruoff, J., and Andersson, N., “The w-mode instability of ultracompact relativistic stars”, arXiv e-print, (2002). [External Linkastro-ph/0212429].
180 Kokkotas, K.D., and Schmidt, B., “Quasi-Normal Modes of Stars and Black Holes”, Living Rev. Relativity, 2, lrr-1999-2, (1999). URL (cited on 5 June 2002):
http://www.livingreviews.org/lrr-1999-2.
181 Kokkotas, K.D., and Schutz, B.F., “W-modes: a new family of normal modes for pulsating relativistic stars”, Mon. Not. R. Astron. Soc., 255, 119–128, (1992).
182 Kokkotas, K.D., and Stergioulas, N., “Analytic Desctription of the r-mode Instability in Uniform Density Stars”, Astron. Astrophys., 341, 110–116, (1999). [External Linkastro-ph/9805297].
183 Komatsu, H., Eriguchi, Y., and Hachisu, I., “Rapidly rotating general relativistic stars – I. Numerical method and its application to uniformly rotating polytropes”, Mon. Not. R. Astron. Soc., 237, 355–379, (1989).
184 Komatsu, H., Eriguchi, Y., and Hachisu, I., “Rapidly rotating general relativistic stars – II. Differentially rotating polytropes”, Mon. Not. R. Astron. Soc., 239, 153–171, (1989).
185 Koranda, S., Stergioulas, N., and Friedman, J.L., “Upper limit Set by Causality on the Rotation and Mass of Uniformly Rotating Relativistic Stars”, Astrophys. J., 488, 799–806, (1997). [External Linkastro-ph/9608179].
186 Kulkarni, S.R., “The First Decade of Millisecond Pulsars: An Overview”, in Fruchter, A.S., Tavani, M., and Backer, D.C., eds., Millisecond Pulsars. A Decade of Surprise, Aspen, Colorado, 3-7 January 1994, ASP Conference Series, vol. 72, pp. 79–101, (Astronomical Society of the Pacific, San Francisco, 1995).
187 Laarakkers, W.G., and Poisson, E., “Quadrupole moments of rotating neutron stars”, Astrophys. J., 512, 282–287, (1999). [External Linkgr-qc/9709033].
188 Lai, D., Rasio, F.A., and Shapiro, S.L., “Ellipsoidal figures of equilibrium – Compressible models”, Astrophys. J. Suppl. Ser., 88, 205–252, (1993).
189 Lai, D., Rasio, F.A., and Shapiro, S.L., “Hydrodynamics of Rotating Stars and Close Binary Interactions: Compressible Ellipsoid Models”, Astrophys. J., 437, 742–769, (1994). [External Linkastro-ph/9404031].
190 Lai, D., and Shapiro, S.L., “Gravitational radiation from rapidly rotating nascent neutron stars”, Astrophys. J., 442, 259–272, (1995). [External Linkastro-ph/9408053].
191 Lamb, F.K., Miller, M.C., and Psaltis, D., “The Origin of Kilohertz QPOs and Implications for Neutron Stars”, in Shibazaki, N., Kawai, N., Shibata, S., and Kifune, T., eds., Neutron Stars and Pulsars: Thirty Years after the Discovery, Proceedings of the International Conference on Neutron Stars and Pulsars held on November 17 – 20, 1997, at Tachikawa Hall, Rikkyo University, Tokyo, Japan, Frontiers Science Series, vol. 24, p. 89, (Universal Academy Press, Tokyo, 1998).
192 Lasota, J.-P., Haensel, P., and Abramowicz, M.A., “Fast Rotation of Neutron Stars”, Astrophys. J., 456, 300–304, (1996).
193 Lattimer, J.M., Prakash, M., Masak, D., and Yahil, A., “Rapidly rotating pulsars and the equation of state”, Astrophys. J., 355, 241–254, (1990).
194 Lattimer, J.M., Prakash, M., Pethick, C.J., and Haensel, P., “Direct URCA process in neutron stars”, Phys. Rev. Lett., 66, 2701–2704, (1991).
195 Lattimer, J.M., and Swesty, F.D., “A generalized equation of state for hot, dense matter”, Nucl. Phys. A, 535, 331–376, (1991). [External LinkDOI].
196 Leins, M., Nollert, H.-P., and Soffel, M.H., “Nonradial oscillations of neutron stars: A new branch of strongly damped normal modes”, Phys. Rev. D, 48, 3467–3472, (1993).
197 Lewin, W.H.G., van Paradijs, J., and Taam, R.E., “X-ray bursts”, in Lewin, W.H.G., van Paradijs, J., and van den Heuvel, E.P.J., eds., X-ray binaries, Cambridge Astrophysics Series, vol. 26, pp. 175–232, (Cambridge University. Press, Cambridge, 1995).
198 Lindblom, L., “Critical angular velocities of rotating neutron stars”, Astrophys. J., 438, 265–268, (1995).
199 Lindblom, L., “The Relaxation Effect in Dissipative Relativistic Fluid Theories”, Ann. Phys. (N.Y.), 247, 1–18, (1996). [External LinkADS].
200 Lindblom, L., “Neutron Star Pulsations and Instabilities”, in Ferrari, V., Miller, J.C., and Rezzolla, L., eds., Gravitational Waves: A Challenge to Theoretical Astrophysics, ICTP Lecture Notes Series, vol. 3, pp. 257–275, (ICTP, Trieste, 2001). [External Linkastro-ph/0101136].
201 Lindblom, L., and Detweiler, S.L., “The quadrupole oscillations of neutron stars”, Astrophys. J. Suppl. Ser., 53, 73–92, (1983).
202 Lindblom, L., and Mendell, G., “The Oscillations of Superfluid Neutron Stars”, Astrophys. J., 421, 689–704, (1994).
203 Lindblom, L., and Mendell, G., “Does gravitational radiation limit the angular velocities of superfluid neutron stars?”, Astrophys. J., 444, 804–809, (1995). [External LinkDOI], [External LinkADS].
204 Lindblom, L., and Mendell, G., “R-modes in Superfluid Neutron Stars”, Phys. Rev. D, 61, 104003, 1–15, (2000). [External Linkgr-qc/9909084].
205 Lindblom, L., Mendell, G., and Ipser, J.R., “Relativistic stellar pulsations with near-zone boundary conditions”, Phys. Rev. D, 56, 2118–2126, (1997). [External Linkgr-qc/9704046].
206 Lindblom, L., and Owen, B.J., “Effect of hyperon bulk viscosity on neutron-star r-modes”, Phys. Rev. D, 65, 063006, (2002). [External Linkastro-ph/0110558].
207 Lindblom, L., Owen, B.J., and Morsink, S.M., “Gravitational radiation instability in hot young neutron stars”, Phys. Rev. Lett., 80, 4843–4846, (1998). [External LinkDOI], [External Linkgr-qc/9803053].
208 Lindblom, L., and Splinter, R.J., “The accuracy of the relativistic Cowling approximation”, Astrophys. J., 348, 198–202, (1990).
209 Lindblom, L., Tohline, J.E., and Vallisneri, M., “Nonlinear evolution of the r-modes in neutron stars”, Phys. Rev. Lett., 86, 1152–1155, (2001).
210 Lindblom, L., Tohline, J.E., and Vallisneri, M., “Numerical evolutions of nonlinear r-modes in neutron stars”, Phys. Rev. D, 65, 084039, 1–15, (2002). [External LinkDOI], [External LinkADS], [External Linkastro-ph/0109352].
211 Liu, Y.T., and Lindblom, L., “Models of rapidly rotating neutron stars: remnants of accretion-induced collapse”, Mon. Not. R. Astron. Soc., 324, 1063–1073, (2001). [External Linkastro-ph/0012198].
212 Livio, M., and Pringle, J.E., “The Rotation Rates of White Dwarfs and Pulsars”, Astrophys. J., 505, 339–343, (1998).
213 Lockitch, K.H., Andersson, N., and Friedman, J.L., “Rotational modes of relativistic stars: Analytic results”, Phys. Rev. D, 63, 024019, 1–26, (2001). [External Linkgr-qc/0008019].
214 Lyford, N.D., Baumgarte, T.W., and Shapiro, S.L., “Effects of Differential Rotation on the Maximum Mass of Neutron Stars”, Astrophys. J., 583, 410–415, (2003). [External Linkgr-qc/0210012].
215 Lynden-Bell, D., and Ostriker, J.P., “On the stability of differentially rotating bodies”, Mon. Not. R. Astron. Soc., 136, 293–310, (1967). [External LinkADS].
216 Maeda, K., Sasaki, M., Nakamura, T., and Miyama, S., “A New Formalism of the Einstein Equations for Relativistic Rotating Systems”, Prog. Theor. Phys., 63, 719–721, (1980).
217 Managan, R.A., “On the secular instability of axisymmetric rotating stars to gravitational radiation reaction”, Astrophys. J., 294, 463–473, (1985).
218 Manko, V.S., Martin, J., Ruiz, E., Sibgatullin, N.R., and Zaripov, M.N., “Metric of a rotating, charged, magnetized, deformed mass”, Phys. Rev. D, 49, 5144–5149, (1994).
219 Manko, V.S., Mielke, E.W., and Sanabria-Gómez, J.D., “Exact solution for the exterior field of a rotating neutron star”, Phys. Rev. D, 61, 081501, 1–5, (2000). [External Linkgr-qc/0001081].
220 Manko, V.S., Sanabria-Gómez, J.D., and Manko, O.V., “Nine-parameter electrovac metric involving rational functions”, Phys. Rev. D, 62, 044048, 1–10, (2000).
221 Marković, D., “Bound near-equatorial orbits around neutron stars”, arXiv e-print, (2000). [External Linkastro-ph/0009450].
222 Marković, D., “Eccentric orbits and QPOs in neutron star X-ray binaries”, arXiv e-print, (2000). [External Linkastro-ph/0009169].
223 Marshall, F.E., Gotthelf, E.V., Zhang, W., Middleditch, J., and Wang, Q.D., “Discovery of an ultra-fast pulsar in the supernova remnant N157B”, Astrophys. J., 499, L179–L182, (1998). [External Linkastro-ph/9803214].
224 McDermott, P.N., Van Horn, H.M., and Scholl, J.F., “Nonradial g-mode oscillations of warm neutron stars”, Astrophys. J., 268, 837–848, (1983).
225 McDermott, P.N., van Horn, M., and Hansen, C.J., “Nonradial oscillations of neutron stars”, Astrophys. J., 325, 725–748, (1988).
226 Mendell, G., “Magnetohydrodynamics in Superconducting-Superfluid Neutron Stars”, Mon. Not. R. Astron. Soc., 296, 903–912, (1998). [External Linkastro-ph/9702032].
227 Migdal, Z., “Stability of vacuum and limiting fields”, Zh. Eksp. Teor. Fiz., 61, 2209–2224, (1971).
228 Miller, M.C., Lamb, F.K., and Cook, G.B., “Effects of Rapid Stellar Rotation on Equation-of-State Constraints Derived from Quasi-periodic Brightness Oscillations”, Astrophys. J., 509, 793–801, (1998). [External Linkastro-ph/9805007].
229 Morsink, S.M., and Stella, L., “Relativistic precession around rotating neutron stars: Effects due to frame-dragging and stellar oblateness”, Astrophys. J., 513, 827–844, (1999). [External Linkastro-ph/9808227].
230 Morsink, S.M., Stergioulas, N., and Blattnig, S.R., “Quasi-normal Modes of Rotating Relativistic Stars: Neutral Modes for Realistic Equations of State”, Astrophys. J., 510, 854–861, (1999). [External Linkgr-qc/9806008].
231 Nakamura, T., “General Relativistic Collapse of Axially Symmetric Stars”, Prog. Theor. Phys., 65, 1876–1890, (1981).
232 Nakamura, T., “General Relativistic Collapse of Accreting Neutron Stars with Rotation”, Prog. Theor. Phys., 70, 1144–1147, (1983).
233 Nakamura, T., Oohara, K., and Kojima, Y., “General Relativistic Collapse to Black Holes and Gravitational Waves from Black Holes”, Prog. Theor. Phys. Suppl., 90, 1–218, (1987).
234 Neugebauer, G., and Herold, H., “Gravitational Fields of Rapidly Rotating Neutron Stars: Theoretical Foundation”, in Ehlers, J., and Schäfer, G., eds., Relativistic Gravity Research: With Emphasis on Experiments and Observations, Proceedings of the 81 WE-Heraeus-Seminar, held at the Physikzentrum Bad Honnef, Germany, 2–6 September 1991, Lecture Notes in Physics, vol. 410, pp. 305–318, (Springer, Berlin; New York, 1992).
235 Nozawa, T., Stergioulas, N., Gourgoulhon, E., and Eriguchi, Y., “Construction of highly accurate models of rotating neutron stars - comparison of three different numerical schemes”, Astron. Astrophys. Suppl., 132, 431–454, (1998). [External LinkDOI], [External LinkADS], [External Linkgr-qc/9804048].
236 Ouyed, R., “Rotating Skyrmion stars”, Astron. Astrophys., 382, 939, (2002). [External Linkastro-ph/0107154].
237 Owen, B.J., Lindblom, L., Cutler, C., Schutz, B.F., Vecchio, A., and Andersson, N., “Gravitational waves from hot young rapidly rotating neutron stars”, Phys. Rev. D, 58, 084020, (1998). [External Linkgr-qc/9804044].
238 Oyamatsu, K., “Nuclear shapes in the inner crust of a neutron star”, Nucl. Phys. A, 561, 431–452, (1993).
239 Page, D., “Geminga: A cooling superfluid neutron star”, Astrophys. J., 428, 250–260, (1994).
240 Pandharipande, V.R., Pethick, C.J., and Thorsson, V., “Kaon energies in dense matter”, Phys. Rev. Lett., 75, 4567–4570, (1995).
241 Papaloizou, J., and Pringle, J.E., “Non-radial oscillations of rotating stars and their relevance to the short-period oscillations of cataclysmic variables”, Mon. Not. R. Astron. Soc., 182, 423–442, (1978).
242 Phinney, E.S., and Kulkarni, S.R., “Binary and millisecond pulsars”, Annu. Rev. Astron. Astrophys., 32, 591–639, (1994).
243 Piran, T., and Stark, R.F., “Numerical relativity, rotating gravitational collapse, and gravitational radiation”, in Centrella, J.M., ed., Dynamical Spacetimes and Numerical Relativity, Proceedings of a workshop held at Drexel University, October 7 – 11, 1985, pp. 40–73, (Cambridge University Press, Cambridge; New York, 1986).
244 Price, R.H., and Ipser, J.R., “Relation of gauge formalisms for pulsations of general-relativistic stellar models”, Phys. Rev. D, 44, 307–313, (1991).
245 Price, R.H., and Thorne, K.S., “Non-Radial Pulsation of General-Relativistic Stellar Models. II. Properties of the Gravitational Waves”, Astrophys. J., 155, 163–182, (1969).
246 Priou, D., “The Perturbations of a Fully General Relativistic and Rapidly Rotating Neutron Star – I. Equations of Motion for the Solid Crust”, Mon. Not. R. Astron. Soc., 254, 435–452, (1992).
247 Prix, R., Novak, J., and Comer, G.L., “Stationary structure of relativistic superfluid neutron stars”, in Lobo Gutierrez, J.A., ed., Gravitation and Cosmology, Proceedings of the 26th Spanish Relativity Meeting (ERE 2002), Menorca, Spain, 22-24 Sept. 2002, (University of Barcelona, Barcelona, Spain, 2003). [External Linkgr-qc/0211105].
248 Psaltis, D., “Models of quasi-periodic variability in neutron stars and black holes”, Adv. Space Res., 28, 481–491, (2001). [External Linkastro-ph/0012251].
249 Psaltis, D., and Norman, C., “On the Origin of Quasi-Periodic Oscillations and Broad-band Noise in Accreting Neutron Stars and Black Holes”, arXiv e-print, (2000). [External Linkastro-ph/0001391].
250 Regge, T., and Wheeler, J.A., “Stability of a Schwarzschild Singularity”, Phys. Rev., 108, 1063–1069, (1957). [External LinkDOI], [External LinkADS].
251 Rezzolla, L., Ahmedov, B.J., and Miller, J.C., “General Relativistic Electromagnetic Fields of a Slowly Rotating Magnetized Neutron Star. I. Formulation of the equations”, Mon. Not. R. Astron. Soc., 322, 723–740, (2001). [External Linkastro-ph/0011316].
252 Rezzolla, L., Lamb, F.K., Marković, D., and Shapiro, S.L., “Properties of r modes in rotating magnetic neutron stars. I. Kinematic secular effects and magnetic evolution”, Phys. Rev. D, 64, 104013, 1–12, (2001). [External Linkgr-qc/0107061].
253 Rezzolla, L., Lamb, F.K., and Shapiro, S.L., “R-Mode Oscillations in Rotating Magnetic Neutron Stars”, Astrophys. J., 531, L139–L142, (2000). [External Linkastro-ph/9911188].
254 Rezzolla, L., Lamb, F.L., Marković, D., and Shapiro, S.L., “Properties of r modes in rotating magnetic neutron stars. II. Evolution of the r modes and stellar magnetic field”, Phys. Rev. D, 64, 104014, 1–13, (2001). [External Linkgr-qc/0107062].
255 Roberts, P.H., and Stewartson, K., “On the Stability of a Maclaurin Spheroid of Small Viscosity”, Astrophys. J., 137, 777–790, (1963).
256 Ruoff, J., Stavridis, A., and Kokkotas, K.D., “Evolution Equations for the Perturbations of Slowly Rotating Relativistic Stars”, Mon. Not. R. Astron. Soc., 332, 676–688, (2002). [External Linkgr-qc/0109065].
257 Ruoff, J., Stavridis, A., and Kokkotas, K.D., “Inertial modes of slowly rotating relativistic stars in the Cowling approximation”, Mon. Not. R. Astron. Soc., 339, 1170–1182, (2003). [External Linkgr-qc/0203052].
258 Saijo, M., Shibata, M., Baumgarte, T.W., and Shapiro, S.L., “Dynamical bar instability in rotating stars: effect of general relativity”, Astrophys. J., 548, 919–931, (2001). [External Linkastro-ph/0010201].
259 Saio, H., “R-mode oscillations in uniformly rotating stars”, Astrophys. J., 256, 717–735, (1982).
260 Salgado, M., Bonazzola, S., Gourgoulhon, E., and Haensel, P., “High precision rotating neutron star models I. Analysis of neutron star properties”, Astron. Astrophys., 291, 155–170, (1994). [External LinkADS].
261 Salgado, M., Bonazzola, S., Gourgoulhon, E., and Haensel, P., “High precision rotating neutron star models. II. Large sample of neutron star properties”, Astron. Astrophys. Suppl., 108, 455–459, (1994). [External LinkADS].
262 Sawyer, R.F., “Bulk viscosity of hot neutron-star matter and the maximum rotation rates of neutron stars”, Phys. Rev. D, 39, 3804–3806, (1989).
263 Sawyer, R.F., and Scalapino, D.J., “Pion Condensation in Superdense Nuclear Matter”, Phys. Rev. D, 7, 953–964, (1972).
264 Schöbel, K., and Ansorg, M., “Maximal mass of uniformly rotating homogeneous stars in Einsteinian gravity”, arXiv e-print, (2003). [External Linkastro-ph/0301618].
265 Schutz, B.F., “Gravitational Wave Astronomy”, Class. Quantum Grav., 16, A131–A156, (1999). [External Linkgr-qc/9911034].
266 Shapiro, S.L., “Differential rotation in neutron stars: Magnetic braking and viscous damping”, Astrophys. J., 544, 397–408, (2000). [External Linkastro-ph/0010493].
267 Shapiro, S.L., and Teukolsky, S.A., Black Holes, White Dwarfs, and Neutron Stars, (Wiley, New York, 1983).
268 Shapiro, S.L., and Zane, S., “Bar Mode Instability in Relativistic Rotating Stars: A Post-Newtonian Treatment”, Astrophys. J., 460, 379–389, (1996). [External Linkgr-qc/9711050].
269 Shibata, M., “Fully general relativistic simulation of coalescing binary neutron stars: Preparatory tests”, Phys. Rev. D, 60, 104052, 1–25, (1999). [External Linkgr-qc/9908027].
270 Shibata, M., “Fully general relativistic simulation of merging binary clusters – Spatial gauge condition –”, Prog. Theor. Phys., 101, 1199–1233, (1999). [External Linkgr-qc/9905058].
271 Shibata, M., “Axisymmetric Simulations of Rotating Stellar Collapse in Full General Relativity – Criteria for Prompt Collapse to Black Holes –”, Prog. Theor. Phys., 104, 325–358, (2000). [External LinkDOI], [External LinkADS], [External Linkgr-qc/007049].
272 Shibata, M., “Axisymmetric general relativistic hydrodynamics: Long-term evolution of neutron stars and stellar collapse to neutron stars and black holes”, Phys. Rev. D, 67, 024033, 1–24, (2003). [External LinkDOI], [External LinkADS], [External Linkgr-qc/0301103].
273 Shibata, M., Baumgarte, T.W., and Shapiro, S.L., “The bar-mode instability in differentially rotating neutron stars: Simulations in full general relativity”, Astrophys. J., 542, 453–463, (2000). [External Linkastro-ph/0005378].
274 Shibata, M., Baumgarte, T.W., and Shapiro, S.L., “Stability and collapse of rapidly rotating, supramassive neutron stars: 3D simulations in general relativity”, Phys. Rev. D, 61, 044012, 1–11, (2000). [External Linkastro-ph/9911308].
275 Shibata, M., and Nakamura, T., “Evolution of three-dimensional gravitational waves: Harmonic slicing case”, Phys. Rev. D, 52, 5428–5444, (1995). [External LinkDOI], [External LinkADS].
276 Shibata, M., and Sasaki, M., “Innermost stable circular orbits around relativistic rotating stars”, Phys. Rev. D, 58, 104011, 1–10, (1998). [External Linkgr-qc/9807046].
277 Sibgatullin, N.R., “Nodal and Periastron Precession of Inclined Orbits in the Field of a Rapidly Rotating Neutron Star”, Astron. Lett., 28, 83–88, (2002). [External Linkastro-ph/0201155].
278 Sibgatullin, N.R., and Sunyaev, R.A., “Disk accretion in the gravitational field of a rapidly rotating neutron star with a rotationally induced quadrupole mass distribution”, Astron. Lett., 24, 774–787, (1998). [External Linkastro-ph/9811028].
279 Sibgatullin, N.R., and Sunyaev, R.A., “Energy Release During Disk Accretion onto a Rapidly Rotating Neutron Star”, Astron. Lett., 26, 699–724, (2000). [External Linkastro-ph/0011253].
280 Siebel, F., Font, J.A., Müller, E., and Papadopoulos, P., “Simulating the dynamics of relativistic stars via a light-cone approach”, Phys. Rev. D, 65, 064038, 1–15, (2002). [External LinkDOI], [External LinkADS], [External Linkgr-qc/0111093].
281 Siebel, F., Font, J.A., Müller, E., and Papadopoulos, P., “Axisymmetric core collapse simulations using characteristic numerical relativity”, Phys. Rev. D, 67, 124018, 1–16, (2003). [External LinkDOI], [External LinkADS].
282 Skinner, D., and Lindblom, L., “On the Viscosity-driven Secular Instability in Rotating Neutron Star”, Astrophys. J., 461, 920–926, (1996).
283 Smarr, L.L., and York Jr, J.W., “Kinematical conditions in the construction of spacetime”, Phys. Rev. D, 17, 2529–2551, (1978). [External LinkDOI].
284 Sonin, E.B., “Vortex oscillations and hydrodynamics of rotating superfluids”, Rev. Mod. Phys., 59, 87–155, (1987).
285 Sorkin, R.D., “A Stability Criterion for Many-Parameter Equilibrium Families”, Astrophys. J., 257, 847–854, (1982).
286 Spruit, H.C., “Gamma-ray bursts from X-ray binaries”, Astron. Astrophys., 341, L1–L4, (1999). [External Linkastro-ph/9811007].
287 Spruit, H.C., and Phinney, E.S., “Birth kicks as the origin of pulsar rotation”, Nature, 393, 139–141, (1998).
288 Spyrou, N.K., and Stergioulas, N., “Spin-down of Relativistic Stars with Phase Transitions and PSR J0537-6910”, Astron. Astrophys., 395, 151–160, (2002). [External Linkastro-ph/0204380].
289 Stark, R.F., and Piran, T., “Gravitational-wave emission from rotating gravitational collapse”, Phys. Rev. Lett., 55, 891–894, (1985). [External LinkDOI], [External LinkADS]. Erratum: Phys. Rev. Lett. 56 (1985) 97.
290 Stella, L., Vietri, M., and Morsink, S.M., “Correlations in the QPO Frequencies of Low-Mass X-Ray Binaries and the Relativistic Precession Model”, Astrophys. J., 524, L63–L66, (1999). [External Linkastro-ph/9907346].
291 Stergioulas, N., “Rapidly Rotating Neutron Star”, project homepage, UWM Centre for Gravitation and Cosmology. URL (cited on 19 November 1997):
External Linkhttp://www.gravity.phys.uwm.edu/rns.
292 Stergioulas, N., The Structure and Stability of Rotating Relativistic Stars, Ph.D. Thesis, (University of Wisconsin-Milwaukee, Milwaukee, 1996).
293 Stergioulas, N., and Font, J.A., “Nonlinear r-Modes in Rapidly Rotating Relativistic Stars”, Phys. Rev. Lett., 86, 1148–1151, (2001). [External LinkDOI], [External LinkADS], [External Linkgr-qc/0007086].
294 Stergioulas, N., and Friedman, J.L., “Comparing models of rapidly rotating relativistic stars constructed by two numerical methods”, Astrophys. J., 444, 306–311, (1995). [External Linkastro-ph/9411032].
295 Stergioulas, N., and Friedman, J.L., “Nonaxisymmetric Neutral Modes in Rotating Relativistic Stars”, Astrophys. J., 492, 301–322, (1998). [External LinkDOI], [External Linkgr-qc/9705056].
296 Stergioulas, N., Kluźniak, W., and Bulik, T., “Keplerian frequencies and innermost stable circular orbits of rapidly rotating strange stars”, Astron. Astrophys., 352, L116–L120, (1999). [External Linkastro-ph/9909152].
297 Strobel, K., Schaab, C., and Weigel, M.K., “Properties of non-rotating and rapidly rotating protoneutron stars”, Astron. Astrophys., 350, 497–512, (1999). [External Linkastro-ph/9908132].
298 Strohmayer, T.E., “Oscillations during thermonuclear x-ray bursts”, Adv. Space Res., 28, 511–522, (2001). [External Linkastro-ph/0012516].
299 Sumiyoshi, K., Ibáñez, J.M., and Romero, J.V., “Thermal history and structure of rotating protoneutron stars with relativistic equation of state”, Astron. Astrophys. Suppl., 134, 39–52, (1999).
300 Swesty, F.D., “Thermodynamically Consistent Interpolation for Equation of State Tables”, J. Comput. Phys., 127, 118–127, (1996).
301 Tassoul, J.-L., Theory of Rotating Stars, (Princeton University Press, Princeton, 1978).
302 Thampan, A.V., and Datta, B., “A general relativistic calculation of boundary layer and disk luminosity for accreting non-magnetic neutron stars in rapid rotation”, Mon. Not. R. Astron. Soc., 297, 570–578, (1998). [External Linkastro-ph/9712120].
303 Thorne, K.S., “Nonradial Pulsation of General-Relativistic Stellar Models. IV. The Weak-Field Limit”, Astrophys. J., 158, 997–1019, (1969).
304 Thorne, K.S., “Multipole expansions of gravitational radiation”, Rev. Mod. Phys., 52, 299–339, (1980). [External LinkDOI], [External LinkADS].
305 Thorne, K.S., “The theory of gravitational radiation: An introductory review”, in Deruelle, N., and Piran, T., eds., Gravitational Radiation, NATO Advanced Study Institute, Centre de physique des Houches, 2–21 June 1982, pp. 1–57, (North-Holland; Elsevier, Amsterdam, Netherlands; New York, 1983).
306 Thorne, K.S., “Gravitational waves”, in Kolb, E.W., and Peccei, R., eds., Particle and Nuclear Astrophysics and Cosmology in the Next Millennium, Proceedings of the 1994 Snowmass Summer Study, Snowmass, Colorado, June 29 – July 14, 1994, pp. 160–184, (World Scientific, Singapore; River Edge, NJ, 1995). [External Linkgr-qc/9506086].
307 Thorne, K.S., “Tidal stabilization of rigidly rotating, fully relativistic neutron stars”, Phys. Rev. D, 58, 124031, 1–9, (1998). [External Linkgr-qc/9706057].
308 Thorne, K.S., and Campolattaro, A., “Non-Radial Pulsation of General-Relativistic Stellar Models. I. Analytic Analysis for L 2”, Astrophys. J., 149, 591–611, (1967).
309 Timmes, F.X., Woosley, S.E., and Weaver, T.A., “The Neutron Star and Black Hole Initial Mass Function”, Astrophys. J., 457, 834–843, (1996). [External Linkastro-ph/9510136].
310 Tooper, R.F., “General Relativistic Polytropic Fluid Spheres”, Astrophys. J., 140, 434–459, (1964).
311 Tooper, R.F., “Adiabatic Fluid Spheres in General Relativity”, Astrophys. J., 142, 1541–1562, (1965).
312 Ushomirsky, G., Cutler, C., and Bildsten, L., “Deformations of accreting neutron star crusts and gravitational wave emission”, Mon. Not. R. Astron. Soc., 319, 902–932, (2000). [External LinkDOI], [External Linkastro-ph/0001136].
313 van der Klis, M., “Millisecond oscillations in X-ray binaries”, Annu. Rev. Astron. Astrophys., 38, 717–760, (2000). [External Linkastro-ph/0001167].
314 van Kerkwijk, M.H., van Paradijs, J., and Zuiderwijk, E.J., “On the masses of neutron stars”, Astron. Astrophys., 303, 497–501, (1995). [External Linkastro-ph/9505071].
315 van Leer, B., “Towards the Ultimate Conservative Difference Scheme. IV. A New Approach to Numerical Convection”, J. Comput. Phys., 23, 276–299, (1977).
316 Villain, L., and Bonazzola, S., “Inertial modes in slowly rotating stars: An evolutionary description”, Phys. Rev. D, 66, 123001, 1–25, (2002). [External LinkDOI], [External LinkADS], [External Linkgr-qc/0203106].
317 Weber, F., and Glendenning, N.K., “Exact versus approximate solution to Einstein’s equations for rotating neutron stars”, Phys. Lett. B, 265, 1–5, (1991).
318 Weber, F., and Glendenning, N.K., “Application of the improved Hartle method for the construction of general relativistic rotating neutron star models”, Astrophys. J., 390, 541–549, (1992).
319 Weber, F., Glendenning, N.K., and Weigel, M.K., “Structure and stability of rotating relativistic neutron stars”, Astrophys. J., 373, 579–591, (1991).
320 Weber, F., Schaab, C., Weigel, M.K., and Glendenning, N.K., “From Quark Matter to Strange MACHOS”, in Giovannelli, F., and Mannocchi, G., eds., Frontier Objects in Astrophysics and Particle Physics, Proceedings of the Vulcano Workshop 1996, Vulcano, Italy, 27 May – 1 June 1996, IPS Conference Proceedings Series, vol. 57, pp. 87–106, (Italian Physical Society, Bologna, 1997). [External Linkastro-ph/9609067].
321 Weinberg, S., Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity, (Wiley, New York, 1972).
322 White, N.E., and Zhang, W., “Millisecond X-Ray Pulsars in Low-mass X-ray Binaries”, Astrophys. J. Lett., 490, L87–L90, (1997).
323 Wilson, J.R., “Models of Differentially Rotating Stars”, Astrophys. J., 176, 195–204, (1972).
324 Wilson, J.R., and Mathews, G.J., “Instabilities in Close Neutron Star Binaries”, Phys. Rev. Lett., 75, 4161–4164, (1995).
325 Witten, E., “Cosmic separation of phases”, Phys. Rev. D, 30, 272–285, (1984).
326 Yoshida, S., and Eriguchi, Y., “Gravitational radiation driven secular instability of rotating polytropes”, Astrophys. J., 438, 830–840, (1995).
327 Yoshida, S., and Eriguchi, Y., “Ergoregion instability revisited – a new and general method for numerical analysis of stability”, Mon. Not. R. Astron. Soc., 282, 580–586, (1996).
328 Yoshida, S., and Eriguchi, Y., “Neutral Points of Oscillation Modes along Equilibrium Sequences of Rapidly Rotating Polytropes in General Relativity: Application of the Cowling Approximation”, Astrophys. J., 490, 779–784, (1997). [External Linkastro-ph/9704111].
329 Yoshida, S., and Eriguchi, Y., “A Numerical Study of Normal Modes of Rotating Neutron Star Models by the Cowling Approximation”, Astrophys. J., 515, 414–422, (1999). [External Linkastro-ph/9807254].
330 Yoshida, S., and Eriguchi, Y., “Quasi-radial modes of rotating stars in general relativity”, Mon. Not. R. Astron. Soc., 322, 389–396, (2001). [External Linkastro-ph/9908359].
331 Yoshida, S., and Kojima, Y., “Accuracy of the Relativistic Cowling Approximation in Slowly Rotating Stars”, Mon. Not. R. Astron. Soc., 289, 117–122, (1997). [External Linkgr-qc/9705081].
332 Yoshida, S., and Lee, U., “Relativistic r-modes in Slowly Rotating Neutron Stars: Numerical Analysis in the Cowling Approximation”, Astrophys. J., 567, 1112–1120, (2002). [External Linkgr-qc/0110038].
333 Yoshida, S., Rezzolla, L., Karino, S., and Eriguchi, Y., “Frequencies of f-modes in differentially rotating relativistic stars and secular stability limits”, Astrophys. J., 568, L41–L44, (2002). [External Linkgr-qc/0112017].
334 Yuan, Y.F., and Zhang, J.L., “Cooling of a rotating strange star with a crust”, Astron. Astrophys., 344(1), 371–375, (1999).
335 Zahn, J.-P., in Zahn, J.-P., and Zinn-Justin, J., eds., Astrophysical Fluid Dynamics (Dynamique des fluides astrophysiques), Proceedings of the Les Houches Summer School, Course XLVII, 29 June - 31 July, 1987, (Elsevier; North-Holland, Amsterdam, Netherlands, 1993).
336 Zanotti, O., and Rezzolla, L., “General relativistic electromagnetic fields of a slowly rotating magnetized neutron star – II. Solution of the induction equations”, Mon. Not. R. Astron. Soc., 331, 376–388, (2001). [External Linkastro-ph/0112032].
337 Zdunik, J.L., “Damping of GRR Instability by Direct URCA Reactions”, Astron. Astrophys., 308, 828–832, (1996). [External Linkastro-ph/9511136].
338 Zdunik, J.L., Bulik, T., Kluźniak, W., Haensel, P., and Gondek-Rosińska, D., “On the mass of moderately rotating strange stars in the MIT bag model and LMXBs”, Astron. Astrophys., 359, 143–147, (2000). [External Linkastro-ph/0004278].
339 Zdunik, J.L., and Gourgoulhon, E., “Small strange stars and marginally stable orbit in Newtonian theory”, Phys. Rev. D, 63, 087501, 1–4, (2001). [External LinkDOI], [External LinkADS], [External Linkastro-ph/0011028].
340 Zdunik, J.L., Haensel, P., Gondek-Rosińska, D., and Gourgoulhon, E., “Innermost stable circular orbits around strange stars and kHz QPOs in low-mass X-ray binaries”, Astron. Astrophys., 356, 612–618, (2000). [External LinkADS], [External Linkastro-ph/0002394].
341 Zdunik, J.L., Haensel, P., and Gourgoulhon, E., “The crust of rotating strange quark stars”, Astron. Astrophys., 372, 535–543, (2001). [External LinkDOI], [External LinkADS], [External Linkastro-ph/0104116].
342 Zdunik, J.L., Haensel, P., and Gourgoulhon, E., “Recycling strange stars to millisecond periods”, Astron. Astrophys., 381, 933–940, (2002). [External LinkDOI], [External LinkADS], [External Linkastro-ph/0111162].